Nullspace-Based Input Reconfiguration Architecture for Overactuated Aerial Vehicles

Nullspace-Based Input Reconfiguration Architecture for Overactuated Aerial Vehicles

A dynamic input reconfiguration architecture is proposed for overactuated aerial vehicles to accommodate actuator failures. The method is based on the dynamic nullspace computed from the linear parameter-varying model of the plant dynamics. If there is no uncertainty in the system, then any signal f...

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Veröffentlicht in:IEEE transactions on control systems technology 2018-09, Vol.26 (5), p.1826-1833
Hauptverfasser: Peni, Tamas, Vanek, Balint, Liptak, Gyorgy, Szabo, Zoltan, Bokor, Jozsef
Format: Artikel
Sprache:eng
Schlagworte:
Aerospace control
Aircraft components
Aircraft control
Algorithm design and analysis
Architecture
Computer architecture
control input reallocation
Control systems
Fault tolerance
fault tolerant control (FTC)
Generators
Heuristic algorithms
Kernel
linear parameter-varying (LPV) systems
null space computation
Parameter uncertainty
Reconfiguration
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Beschreibung
Zusammenfassung:A dynamic input reconfiguration architecture is proposed for overactuated aerial vehicles to accommodate actuator failures. The method is based on the dynamic nullspace computed from the linear parameter-varying model of the plant dynamics. If there is no uncertainty in the system, then any signal filtered through the nullspace has no effect on the plant outputs. This makes it possible to reconfigure the inputs without influencing the nominal control loop and thus the nominal control performance. Since the input allocation mechanism is independent of the structure of the baseline controller, it can be applied even if the baseline controller is not available in analytic form. The applicability of the proposed algorithm is demonstrated via the case study of designing a fault tolerant controller for the Rockwell B-1 Lancer aircraft.
ISSN:1063-6536
1558-0865
DOI:10.1109/TCST.2017.2737622